碳化硅生物传感器研究的全球趋势:文献计量学研究

Pub Date : 2023-08-06 DOI:10.5530/jscires.12.2.033
Jishant Talwar, Ashutosh Bhardwaj, Namrata Dewan Soni
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引用次数: 0

摘要

碳化硅(SiC)是一种用途广泛的工业材料,由于其独特的电学和热学性能,在各个领域得到了广泛的应用。在众多领域中,它对生物传感器技术做出了重大贡献,因为它既具有生物相容性,又具有血液相容性。这项研究特别感兴趣的是它在生物医学应用方面的潜力。虽然在过去的20年里(2000-2022年)已经发表了大约907篇基于sic的生物传感器的文章,但并没有多少综述文章封装了基于sic的生物传感器的进步和应用。为了更好地了解硅基生物传感器技术的发展阶段、研究现状和未来发展趋势,有必要进行广泛的回顾性调查。本研究旨在探索基于sic的生物传感器的潜力及其跨学科合作的独特特征,通过大数据分析利用机器学习。通过回顾该领域的研究,本研究旨在揭示基于sic的生物传感器研究的全球趋势、挑战和差距,并确定可以推进生物传感器技术的新研究领域和技术。通过进行分析,本研究提供了对生物传感器研究最具影响力的文章和顶级贡献者的见解,包括期刊,作者,机构和国家。此外,该研究还考察了该领域采用的方法方法和研究背景。结果表明,生物传感器发展的技术路径之一是使用基于碳化硅的生物传感器和医疗设备,这反过来又有望转变为商业领域。这些新兴的研究基础和生物传感器技术的主要特点是研究和创新政策的生产效果,导致了社会的科学进步和技术变革。
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Global Trends in Silicon Carbide Biosensor Research: A Bibliometric Study
Silicon carbide (SiC) is a versatile industrial material and has been in use in various spheres because of its distinctive electrical and thermal properties. Among various fields, it has contributed significantly to biosensor technologies because it is both bio and hemo-compatible. Of particular interest in this study is its potential for biomedical applications. Although about 907 SiC-based biosensor articles have been published in the past 20 years (2000–2022), not many review articles have encapsulated the advancement and uses of the SiC-based biosensor. In order to better understand the development stage, research hives, and future advancement trends of SiC-based biosensor technology, it is essential to perform a broad retrospective investigation. The present study aims to explore the potential of SiC-based biosensors and their distinct features for interdisciplinary collaborations, utilizing machine learning through big data analytics. By reviewing research in this field, the study seeks to uncover global trends, challenges, and gaps in SiC-based biosensor research, as well as identify new research areas and technologies that could advance biosensor technology. By conducting the analysis, this study provides insights into the most impactful articles and top contributors to biosensor research, including journals, authors, institutions, and countries. Additionally, the study examines the methodological approaches and research contexts employed in this field. Results suggest that one of the evolving technological paths in biosensors is the use of silicon carbide-based biosensors and medical devices, which in turn are poised to transform into the commercial sphere. The main characteristics of these emerging research grounds and technologies in biosensors are illustrated for the productive effects of research and innovation policy that led to scientific advances and technological change in society.
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